Systems and Methods for Last Mile Optimization of Transmission of Real-Time Data

1. A computerized last mile optimization system comprising: several best edge servers, each edge server including a last mile optimizer; and an application, at a user equipment, configured to test each of the edge servers by sending pseudo-packets to the last mile optimizer located at each of the several best servers to identify a single best edge server for transmission, wherein the application is further configured to transmit a plurality of pseudo-packets where each one of a plurality of transporter algorithms have been applied to identify effective transporter algorithms; wherein the transporter algorithms include retransmission algorithms, Forward Error Correction (FEC), simultaneous pathway, lower the encoder bitrate, sending multiple voice frames in a single packet, adaptive jitter buffering and Path Loss Concealment (PLC); wherein the application is further configured to combine together the algorithms shown to be effective for a real-time data transmission.

2. The last mile optimization system of claim 1 , wherein jitter, latency and packet loss are measured for the transmitted pseudo-packets to determine quality of service for each of the several best edge servers.

3. The last mile optimization system of claim 2 , wherein identifying the single best edge server includes balancing the latency, jitter and packet loss measurements to estimate quality of service for each of the several best edge servers.

4. The last mile optimization system of claim 1 , wherein the application is further configured to transmit real-time data packets via the single best edge server.

5. The last mile optimization system of claim 4 , further comprising a monitor configured to continuously measure transmission quality, and upon detection of a problem switching transmission of the real-time data packets from the single best edge server to at least one of the several best edge servers.

6. The last mile optimization system of claim 4 , further comprising a negotiation mechanism configured to detect changes in the transmission jitter, latency and packet loss, and negotiating optimized transporter algorithms, including altering encoding and bitrate of the transmission.

7. A computerized last mile optimization method comprising: sending pseudo-packets to a last mile optimizer located at each of several best servers; receiving feedback from each of the last mile optimizers; selecting the single best server from the several best servers based on the feedback; applying each one of a plurality of transporter algorithms to pseudo-packets sent to the single best server; and measuring quality of service for each transporter algorithm to determine which are effective; wherein the transporter algorithms include retransmission algorithms, Forward Error Correction (FEC), simultaneous pathway, lower the encoder bitrate, sending multiple voice frames in a single packet, adaptive jitter buffering and Path Loss Concealment (PLC); and combining together the algorithms shown to be effective for a real-time data transmission.

8. The method of claim 7 , wherein jitter, latency and packet loss are measured for the transmitted pseudo-packets to determine quality of service for each of the several best edge servers.

9. The method of claim 8 , wherein identifying the single best edge server includes balancing the latency, jitter and packet loss measurements to estimate quality of service for each of the several best edge servers.

10. The last mile optimization system of claim 7 , further comprising transmitting real-time data packets via the single best edge server.

11. The method of claim 10 , further comprising continuously measuring transmission quality, and upon detection of a problem switching transmission of the real-time data packets from the single best edge server to at least one of the several best edge servers.

12. The method of claim 10 , further comprising detecting changes in the transmission jitter, latency and packet loss, and negotiating optimized transporter algorithms, including altering encoding and bitrate of the transmission.